Chemical Process and Energy Resources Institute Centre for Research and Technology Hellas Characterization and classification of Refuse Derived Fuel in the Materials Recovery Facility of EPANA S.A. Panagiotis Vounatsos, Georgios Koufodimos, Michalis Agraniotis, Konstantinos Roufos, Charalambos Eleftheriadis, Panagiotis Grammelis, Emmanuel Kakaras
Contents Scope Fuel Preparation Standard CEN/TC 343 Sampling Procedure Sample Pre-Treatment Present RDF Classification Conclusions
Scope Present work in the framework of LIFE09/ENV/GR000307 ENERGY WASTE Main objectives of the project Erection of a CFB gasifier Input fuel: RDF produced in EPANA s plant Study RDF gasification parameters Study syngas quality Sustainability assessment Sampling, Analysis and classification of RDF
Fuel Preparation The fuel includes packaging waste: cardboard paper various plastic streams Tetra pack glass ferrous and non-ferrous metals The material streams produced from the process are the following: 1. Large materials from the reception area 2. Unwanted materials from the pre-sorting cabin 3. Fine fraction (<65 mm) of the trommel screen 4. Residues from the overflow (>280 mm) of the trommel screen 5. Residues from the rest of the process. The non recyclable streams 4 and 5 could be used for the production of RDF/SRF able to be utilized as fuel.
European Standard CEN/TC 343 The European Standard CEN/TC 343 specifies all necessary standards regarding Solid Recovered Fuels (SRF). The work of CEN/TC 343 was organized by a Technical Committee and five Working Groups: WG1 Terminology and quality management WG2 Fuel specification and classes WG3 Sampling, sample reduction, determination of biodegradable fraction WG4 Physical parameters WG5 Chemical parameters Latest version of Technical Specifications: 2010-2011
Standards used for the Analyses Measured Parameters European Standard Ash content EN 15403:2011 Moisture Content: reference method CEN/TS 15414-1:2010 Calorific Value EN 15400:2011 Chlorine (Cl) EN 15408:2011 Mercury (Hg) EN 15411:2011 Heavy metals (Sb, As, Cd, Cr, Co, Cu, Pb, Mn, Ni, Tl, V) EN 15411:2011 Volatile matter EN 15402:2011 Elementary analysis (C, H, N, S) EN 15407:2011 / EN 15408:2011
Sampling Procedure Sampling procedure designed and executed according to EN 15442:2011 Sampling duration from June 2011 January 2012 Sampling June 2011 and is still ongoing: Season variance Weather variance Customs variance Seasonality Lot definition : Storage Lot Lot size : 1.250tonnes Sampling procedure: Sampling from a static lot Number of increments : 24 Minimum sample size : 0.8 kg Minimum increment size : 430g Effective increment size: 430g Effective sample size : 10.32kg
Sample Treatment till Analyses Sample Increment Analyses Air drying in oven Sample drying Hg Analysis Air tight sealing Sample grinding Long term storage Sample Preparation
Moisture percentage Variance 60 50 40 30 20 10 0 1/6/2011 3/6/2011 21/6/2011 23/6/2011 29/6/2011 1/7/2011 5/7/2011 19/7/2011 27/7/2011 1/8/2011 4/8/2011 24/8/2011 30/8/2011 1/9/2011 3/9/2011 7/9/2011 9/9/2011 12/9/2011 14/9/2011 16/9/2011 19/9/2011 22/9/2011 24/9/2011 28/9/2011 30/9/2011 4/10/2011 6/10/2011 10/10/2011 12/10/2011 14/10/2011 25/10/2011 27/10/2011 31/10/2011 2/11/2011 4/11/2011 7/11/2011 10/11/2011 12/11/2011 15/11/2011 17/11/2011 19/11/2011 23/11/2011 28/11/2011 30/11/2011 2/12/2011 Moisture Percentage
Proximate Analysis Calorific Value Average ( % w.t.) Standard Deviation Moisture 26,72 6,99 Ash (as received) 8,39 2,47 Volatiles (as received) 60,01 5,18 Char (as received) 4,21 2,55 Average Standard Deviation HHV (MJ/kg) 20,70 2,50 LHV (MJ/kg dry) 19,31 2,35 LHV (MJ/kg raw) 13,43 1,71
Proximate Analysis Variance 90,00 Proximate Analysis 80,00 70,00 60,00 % w.t 50,00 40,00 30,00 20,00 10,00 0,00 RDF0 (June RDF1 (July RDF2 (August RDF 3 (September RDF 4 (October RDF 5 (November RDF 6 (December Ash (dry basis) Volatiles (dry basis) Char (dry basis) Moisture variance RDF 7 (January 2012)
Calorific Value Variance Net Calorific Value Variance 25,00 20,00 15,00 MJ/kg 10,00 5,00 0,00 RDF0 (June RDF1 (July RDF2 (August RDF 3 (September RDF 4 (October RDF 5 (November RDF 6 (December RDF 7 (January 2012) NCV (dry) NCV -Average (dry) NCV (raw) NCV (raw) -Average
Ultimate Analysis Average ( % w.t.) Standard Deviation C (d.a.f) 55,26 5,72 H (d.a.f) 7,21 1,10 N (d.a.f) 1,32 0,62 S (d.a.f) 0,25 0,19 O (d.a.f) 35,53 6,97 Cl (d.a.f) 0,43 0,19 Cl (dry) 0,38 0,16
Chlorine Variance Chlorine Variance 0,70 0,60 0,50 % w.t. 0,40 0,30 0,20 0,10 0,00 RDF0 (June RDF1 (July RDF2 (August RDF 3 (September RDF 4 (October RDF 5 (November RDF 6 (December RDF 7 (January 2012) Cl (raw) Cl (raw) - Average Cl (dry) Cl (dry) - Average
Heavy Metals Average Standard Deviation Median Proposed values (median) Remondis Proposed values (median) RAL GZ - 724 Cd (mg/kg dry) 5,63 3,11 5,51 <250 125 Cr (mg/kg dry) 20,65 12,59 21,61 <12 6 Co (mg/kg dry) 5,87 6,78 2,06 <1000 400 Cu (mg/kg dry) 76,25 67,24 43,48 - - Pb (mg/kg dry) 110,52 132,31 16,51 <400 250 Mn (mg/kg dry) 54,64 30,56 55,43 - - Hg(mg/kg dry) 0,69 0,69 0,34 <160 80 Ni (mg/kg dry) 23,49 15,07 26,00 <1 1 Tl (mg/kg dry) 8,65 11,60 0,00 <250 125
Comparison with other countries standards EPANAs RDF NCV (MJ/kg ar) 13,43 Moisture (% ar) 26,72 Ash (% dry) 11,45 Cl (% dry) 0,38 Hg (mg/kg dry) 0,69 Cd + Tl (mg/kg dry) 14,28 Sum HM (mg/kg dry) 291,43 Other EU countries standards for RDF Source: ERFO
Harmonization of RDF/SRF properties according to EN/TC 343 Classification of RDF according to EN 15359:2011 Classification Statistical Unit Classes characteristic measure 1 2 3 4 5 Net calorific value (NCV) Mean MJ/kg (ar) 25 20 15 10 3 Classification Statistical Unit Classes characteristic measure 1 2 3 4 5 Chlorine (Cl) Mean % (d) 0,2 0,6 1,0 1,5 3 Classification Statistical Unit Classes characteristic measure 1 2 3 4 5 Mercury (Hg) Median mg/mj (ar) 0,02 0,03 0,08 0,15 0,50 80 th percentile mg/mj (ar) 0,04 0,06 0,16 0,30 1,00
Conclusions The procedure of sampling, analysis and classification of RDF produced in EPANA s facility is done according to CEN/TC 343 Effect of time period/other parameters (customs, events etc.) on sample composition Cl content measured is not expected to cause technical or operational problems Heavy metals content within normal standards with few exceptions EPANA s RDF classification according to CEN/TC 343 -> 4,2,2